Central Idea

The 2023 Nobel Prize in Chemistry has been awarded to Moungi G. Bawendi, Louis E. Brus and Alexei I. Ekimov for the discovery and synthesis of quantum dots.

About the Nobel Laureates

Alexei Ekimov: Born in 1945 in the former USSR, Ekimov earned his PhD in 1974 from Ioffe Physical-Technical Institute. He was formerly the Chief Scientist at Nanocrystals Technology Inc., New York, USA.
Louis Brus: Born in 1943 in Cleveland, USA, Brus obtained his PhD in 1969 from Columbia University, where he is a professor.
Moungi Bawendi: Born in 1961 in Paris and raised in France, Tunisia, and the US, Bawendi earned his PhD in 1988 from the University of Chicago. He is a professor at the Massachusetts Institute of Technology (MIT), USA.

Quantum dots (QDs) are man-made nanoscale crystals celebrated for their unique optical and electronic properties.
They can transport electrons and emit diverse colors when exposed to UV light.
These artificially synthesized semiconductor nanoparticles found their origins in theoretical concepts in the 1970s, followed by successful synthesis in the early 1980s.
Small semiconductor particles exhibit quantum effects, altering their optical properties based on size.

Size Matters: Quantum dots manipulate light emission based on size, as energy levels are linked to wavelength (color). By controlling particle size, they can emit or absorb specific colors of light.
Versatile Structures: Quantum dots come in diverse forms, with properties determined by factors like size, shape, composition, and structure. They can be employed as active materials in single-electron transistors and offer vast application potential.

Ekimov’s Soviet Discovery: Ekimov’s initial discoveries in this field, dating back to 1981, were pioneering but remained largely unknown due to the Iron Curtain’s restrictions.
Glass Coloration Mystery: Ekimov’s work began with the curious phenomenon of glass coloration. He explored how particle size influenced the color imparted to glass during its formation, leading to a size-dependent quantum effect discovery.
Brus’s Independent Revelation: Unaware of Ekimov’s work, Brus, in the U.S., was working with cadmium sulfide particles to harness solar energy. He observed that smaller particles absorbed light at different wavelengths, demonstrating the size-dependent quantum effect.
Bawendi’s Innovations: Bawendi improved particle creation methods, enhancing the perfection of nanocrystals and enabling the exploration of quantum dots’ unique properties by more chemists.

In Electronics: Quantum dots play a crucial role in QLED technology, used in computer and television screens. They also adjust the light in LED lamps, offering various color temperatures.
Biochemistry and Medicine: Quantum dots are used in biochemistry to map cells and organs, and doctors explore their potential for tracking tumor tissue in the body. Chemists leverage their catalytic properties to drive chemical reactions.